benton



(No Model.) f 6 Sheets-Sheet 1.

J. B. BENTON. FARE BJE'IGfISTER.l

mmn

Patented Oct. 15, 1895.

hmm.

umlulllllllnm a y@ :ull-11Min. r

lLllll-lllllllllllll) /lVL/ENTO?y ENTON) f( CJDHN BY A TTORNE YS.V

(No Model.) 6 Sheets-Sheet 2.

J. B. BENTON.

FARE REGISTER.

No. 547,981. Patented Oct. 15, 1895.

W/TNESSES.'v

A TTUHNEYS.

ANDREW lGRAKAM. PHOTO-UTIIlWSMI'NGTDN. DC.

(No Model.) 6 Sheets-Sheet 3.

J. B. BBNTDN.

PARE REGISTER. l No. 547,981. Patented Oct. 15, 1895.

A TTOHNEYS.

ANDREW B.GRANAM. FN4.71'0-LI'TMQWASNINGTUNJICv (No Model.) s sheets-sheen 4.

J.. B. BENTON. PARE REGISTER.

No. 547,981'. Patented 001;. 15, 1895.

f f7 afin 0 @n In am 47 a 65;/

a3 i a7' 'a fr a u afg WW1; z

@Wl TNE SSE S farro/Mmm` ANDREW ABRAHAM. PHUTDUTHQWSNINGTDHJMC.

6 Sheets-Sheet l 5.\\

(No Model.)

J. B. BENTON. FARB REGISTER. l No. 547,981. Patented Oct. 15,1895.

' 'Jill-"Hum WHA/Essie.' nvm/70H,

A TTOHNEYS,

(No Model.) 6 sheets-sheen s`.\\v

J. B. BENTON.

' FARE REGISTER. No. 547,981. Patented Oct.. 15, 1895.

I v daf/r a7' 1 W.'

afr (7 L0 a5 Laak/v W/TNESSES:

ANDREW 3.6RAMAH.PHOTOUTMQWSMIIIGTQLDL.

Nrrno STATES;

' PATENT Orr Ion.

.IOIAIN BRA-DBURY BENTON, OF NEV YORK, N. Y.

FARE-REGISTER.

SPECIFICATION forming part of ietters Patent No. 547,981, dated October 15, 1895.

Application filed February 24, 1894. Serial No. 501,321. (No model.)

To @ZZ whom, t may concern:

Be it known that I, JOHN BRADBURY BEN- TON, of New York, in the county of New York and State of New York, have invented certain new and useful Improvements in Fare-Registers for Registering Fares on Cars and other Passenger-Vehicles, of which the following is a full and complete description, reference being had to the accompanying drawings, which illustrate my invention and form a part of this specification.

My invention relates to that class of registers which are fixed in a conspicuous position in the car or other vehicle on which they are used, and which effect a visual registration open at all times to the inspection of passen` gers and others on the car.

The objects of my invention are, first, to provide a register adapted to register separately the number of transfers taken by the conductor, and also the Whole number of fare-s, inclusive of the transfers; second, to provide a register adapted to record separately the number of transfers and the Whole number of fares, inclusive of transfers, taken in each trip, and also the aggregate of transfers and the whole number of fares, inclusive of transfers, taken in successive trips; third, to provide means for preventing the register' from being tampered with and partially set back by the conductor or collecting agent to indicate less than the Whole number of fares taken in any trip, said means comprising a separable connection which is broken in setting the trip-register back to zero, and a locking mechanism which prevents such broken connection from being restored or re-established until the trip-registers have been fully set back to zero.

With these objects in view my invention comprehends a double register made in two parts or sections, each of which contains a complete registering mechanism, one of said sections being intended to register only transfers (and which I therefore denominate the transfer register or section) and the other section the Whole number of fares, inclusive of transfers, cash fares, or tickets, (and which, for purposes of description, I denominate the cash section. The mechanisms of the two sections are so connected that While the cashsection may be operated independently of the transfer-section to register cash fares or tickets it operates in conjunction with the transfer-section when the latter is operated to register a transfer, the result or effect being that the transfers are registered by both sections, while cash fares ortickets are registered only by the cash-section.

In the accompanying drawings, Figure I represents a front or face view of a register embodying my invention; Fig. 2, a similar view with the face-plates removed; Fig. 3, a broken rear View of the combined tens and hundreds dial-plate of the cash-registering sections, and Fig. 4 a similar view ot' the units dial-plate of the same section. Fig. 5 is a front elevation showing the faceplates and a portion of the mechanism in the front of the register removed to show the mechanism in the rear. Fig. 6 is a section from `front to rear on the line 6 6 in Fig. 5, looking toward the left. Fig. 7 is a rear view showing the means for locking the trip-registering mech anism out of action While resetting the same. Fig. S is a broken view, on an enlarged scale and partly in section, of said locking mechanism. Fig. 9 is a vertical section from front to rear through the transfer-section on the line 9 9 in Fig. 2,1ooking toward the left; and Fig. 10 is a similar view on the linelO 10, looking toward the right. Fig. ll is a face view of the operating-lever of the cash-section. Fig. l2 is a side view of the central gearing for actuating the trip-registering dial-plates of the cash-section. Fig. 13 is an edge view of a movable plate, together with the means for actuating the same, to cover and uncover the hundreds-numerals of the combined tens and hundreds dial of the cash-section; and Fig. 14C is an under side or rear face view of said covering-plate.

I will Iirst describe the construction and operation of that portion of my apparatus Which registers the cash fares and tickets as well as the whole number of fares received by the conductor, which portion, as above stated, I denominate the cash-section, and which in the drawings is marked A. This section comprehends a trip-registering mechanismthat is, a mechanism which registers the Whole number of fares received during each tripwhich is to be set back to zero at the end of each trip, a total-registering mechanism ICO arrest which registers the total or aggregate number of fares received in successive trips and which moves constantly forward in the same direction, and a direction-indicator to indicate the direction in which the car is traveling, this indicator being connected with the resetting devices in such manner that it is changed to indicate a change of direction whenever the trip-registering mechanism is set back at the end of a trip. These mechanisms are mounted on and supported by two plates and a', which are hereinafter denominated the base-plate7 and the rear plate, respectively, and which are bound together and held in iixed relation to each other by spacing-studs @2 and nuts @3. (See Fig. 6.)

Supported in central bearings in the two plates d and d is a sleeve or hollow shaft @8, which is provided immediately back of the base-plate a with a gear-wheel a4 and back of the rear plate with a toothed Wheel a5, these wheels being rigid on the sleeve. Between the wheel d5 and the rear plate and rigidly secured to the latter, is a wheel a6, which corresponds in size and in the number of its teeth with the wheel a5, beingthe counterpart thereof. Vithin the sleeve @8 and projecting therefrom at both ends is a shaft a9, which has fixed on its front end in front of plate d a gear-wheel a7 and on its rear end an arm @10, the outer end of which is bent forward into the plane of the wheel @5. The shaft a is movable longitudinally and is held normally vin its backward position by springs @11 between the arm @10 and the rear of the register. rlhe arm d10 carries at its outer end an inwardly-projecting stud or tooth @12, which is normally in engagement with the teeth of wheel a5 and causes said wheel, the sleeve on which it is mounted, the shaft @9, and itsconnected parts all to rotate together, as hereinafter more fully explained.

The rear plate a has a thickened portion a, concentric with and somewhat smaller than the wheela, and in the periphericalsurface of this thickened portion is a circumferential groove or channel al, forming at the rear a Iiange n.15, which has formed in it a notch @16, as indicated by broken lines in Figs. 7 and 8.

On the forwardly-bent end of the arm @10 is mounted a swinging spring-pressed catch @17, held normally in radial position by astop-pin als. In the normal position of the parts this spring-catch rides against the edge of the flange als and is turned back thereby against the force of its spring and held in an angular position. A longitudinal forward movement of the shaft @9 carries the catchinto the plane of the groove am, into which it snaps and locks the parts in this position. Restoration tothe normal position is effected by turning the shaft @9 and its arm d10 backward tothe starting-point, such backward movement being limited by a stop-pin @19, which projects from the rear plate into the path of aforwardlyprojecting lug d20 at the outer end of the arm.

(See Figs. G, 7, and 8.) When this limit of movement is reached, the inner end of the v catch @17, which now stands in its radial position, is opposite the notch @16, and the shaft a and its connected parts are free to move backward to normal position under the action of the retracting-springs au, the catch a entering the notch e116. On the forward rotary movement of the shaft a9 the catch leaves the notch and is turned back to its angular position by the flange @15, against which it rides, as before. The purpose of this mechanism will be explained by the following description: Projecting forwardly from the rear plate at one side of the gear-wheel a4, is a stud or pintle @21, on which is mounted a ratchetwheel e122, carrying on its front face a rigidlyconnected pinion @23, which meshes with the gear-wheel @4. (See Fig.

A designates an angular lever shaped subl stantially as shown in Fig. l1, which is fulcrumed on the sleeve d8 and carries on its arm @24 a spring-pressed pawl @25, adapted to engage and actuate the ratchet-wheel @22. The other arm L26 carries a rearwardly-projecting pin or stud a2?, which extends through a slot provided therefor in the rear plate and is coupled with the end of a sliding bar @28, the opposite end of which is connected with a crank-arm @29 on a shaft e30, which runs longitudinally through the car or vehicle on which the register is used. Said shaft is provided with one or more lever-arms or handles @31, whereby it is turned to operate the register.

The lever A is pressed back aga-inst the action of the sliding bar @t28 by a spring d3?, and the arrangement is such that the ratchetwheel @22 and its connected pinion @23 are actuated on the back stroke of the lever. (See Fig. 5.)

@33 designates a bell mounted on the rear plate and a3* is the bell-hammer pivoted on astud @35 and thrown forward toward the bell bya spring @36. The ham mer-arm is provided with a tooth or projection @37, which bears against the teeth of the ratchet-wheel @22, whereby the hammer is retracted, and the arrangement is such that the tooth or projection 0.37 escapes from the actuating-tooth of the ratchet-wheelon the completion ot` the back stroke of the lever A', so that the bell is sounded on the registration of each fare. The bell-hammer thus also forms a frictionstop to prevent overrotation of the ratchetwheel and the mechanism actuated through the same.

Projecting forward from the base-plate a, at opposite sides of the gear-wheels @7, are two studs or pintles @38 d, on which are mounted, respectively, the units dial plate or disk A2 and the combined tens and hundreds dialplate A3 of the trip-registering mechanism. These dial-plates rotate in opposite directions, asindicated by arrows in Fig. 2, and they are of such size that they stand close together. The plate A2, which registers the units of the Ici number of fares taken during a trip, has on its face the nine digits or numerals and a cipher arranged in a circular row concentric with the axis of rotation, equally spaced, and running progressivelyin adirection opposite the direction of rotation. l

The plate A3, which registers the tens and hundreds of the fares taken during a trip, has on its face the series of numbers from l to 19, inclusive, also circularly arranged, evenly spaced, and running consecutively in oppositionto thedirection of rotation. These dials are rotated step by step to bring their numerals successively into view through a sight-opening d in a face-plate -in front of the same.

The operating mechanism through which the dials are rotated is constructed and operates as follows: Back of the dial-plate A2 and rigidly connected therewith is a ratchet-wheel @41, and back of said ratchet-wheel and connected therewith in turn is a pinion @42, which meshes with the gear-wheel d2, mounted on the front end of shaft c2, as already explained. The arm @24 of lever A carries a second pawl @43, which normally engages the ratchet-wheel @44 and serves as a stop to pre-I vent forward rotation of the same and of the dial-plate A2, connected therewith.

it will now be understood from the forego ing description that the ratchet-wheel 0,44 and the connected pinion @42 are rotated step by step by the lever A and its pawl n.25, that the pinion C622 imparts rotation to the wheel d4, the sleeve or hollow shaft as, and the rigidlyconnected toothed wheel a5, that the latter, through its connections with the arm ctw, rofates the shaft @9 and the gear-wheel a7 thereon, and that the wheel a7 rotates the dialplate A2 through the pinion @42, connected therewith. XVhen theleverA is drawn back by operating the shaft n30, the pawl @43 is carried away from the ratchet-wheel @41 (being prevented from turning toward the latter by a stop @44) and the dial-plate A2 is then free to be turned forward to bring the next character thereon into view. The movement of the dial-plate begins as soon as the lever A is released, so that before the pawl @42 returns to its engaging position the point of the ratchet-tooth with which it was before engaged will have passed and the pawl will engage the next tooth and arrest the ratchetwheel and the dial connected therewith on the completion of the back stroke of the lever, an overrotation of the dial-plate being thus prevented. Above the stud or pintle on which the dial-plate A3 is mounted is another stud or pintle d45, on which is mounted a plain or untoothed wheel @46, provided on its rear face with a pinion @47, which meshes with the gear-wheel a7. At the rear of the dial-plate A3 and rigidly connected therewith is a scalloped wheel @48, having in its peripherical surface ten scallops or concavities (see Fig. 3) in which the wheel d4 runs to hold the dialplate stationary and prevent its rotation except at the proper times, as will be explained. On the front face of the scalloped wheel L48 is a forwardly-extending `rim 0,49, which is notched at the angles between the respective scallops or concavities, as indicated at ao in Figs. 6 and 13, in which notches a radiallyprojecting arm am on the wheel a4 engages on the completion of each full rotation of the latter, and whereby the scalloped wheel and the connected dial-plate A3 are turned forward one step7 the wheel d46 being formed with a notch 0,52 opposite its arm am (see Fig. 5) for the reception of the angles between the scallops to permit the forward movement of the scalloped wheel. Thus on the completion of each full rotation of the wheel a4 the scalloped wheel and its connected dial-plate are turned forward one step or one-tenth of a rotation to bring the next higher number on the dial into view through the sight-opening e043.

The ratchet-wheel @22 has ten teeth,the pinions w23 and d have an equal number of teeth, and the scalloped wheel 1,42 has ten scallops, from which it follows that the units dial-plate A2 and the wheel @4F are rotated synchronously through one-tenth of a rota` tion at each operation of the lever A', and that each full rotation of the wheel @46 produces one-tenth of arotation of the dial-plate A2, whereby the tens are transferred or carried from the dial A2 to the dial A3. The means for registering the hundreds will be hereinafter explained.

On the completion of each trip of the car or other vehicle on which the register is used the registering mechanism is to be set back to zero preparatory to the next trip.

The resetting mechanism is constructed and operates as follows: A4 designates a lever fulcrumed in ears or lugs @53 @53, projecting forwardly from the base-plate a, (see Figs. 5 and 6,) which lever is provided at its free or swinging end with a push-pin @54, which projects rearwardly through an opening provided therefor in the base-plate and in the case which incloses the registering mechanism. At a proper point in its length the leverV is formed with an eye or opening L55 for the reception of a hub or boss a5 on the wheel a7, to which it is coupled by means of a plate or washer a5?, secured on the end of shaft a9 and overlapping the lever. As before stated, the shaft a9 is lnovable longitudinally in the sleeve as and is held in its rearward position by the springs au, the tooth @12 on the arm d10 being then in engagement with the teeth of wheel d5. The lever A4 being swung forward by pressure applied to its push-pin @54, the wheel @7, the shaft a9, on which it is mounted, and the arm d10, carried by said shaft, are all moved forward, the wheel d5 and the arm d10 being thereby disconnected. The same movement carries the spring-catch @1T forward beyoud the flange 0,15 and permits it to be thrown by its spring into the circumferential groove @14, whereby the parts are locked and pre- IOO ILO

vented from returning to normal position under the influence of the springs au when the lever A4 is released. lt Will be noted that when the tooth al? is Withdrawn from the teeth of wheel @dit engages those of the fixed wheel a, so that it is necessary to swing' the lever A'l far enough to carry the tooth 1,12 entirely through and beyond the teeth of Wheel a6. This having been done, the registering mechanism is entirely disconnected from the actuating devices and is free to be turned backward to the Zero or starting point. The backward rotation is effected by means of a thumbpiece or button d, projecting from the dialplate A2 through an opening in the face-plate, (see Fig. l,) and is continued until it is arrested by the lug d20 coming in contact with the stop-pin al, as already explained. `When this position is reached, the two dial-plates 'will have reached the zero-point, the catch a will stand opposite the notch al in the flange @15, and the shaft d and its connected parts will be free to return to normal position under the intiuence of the retractingsprings au.

It 'will be understood from the foregoing that as soon as the shaft a9 is moved longitudinally forward far enough to carry the spring-catch a off the edge of the flange @15 the said catch will snap into the circumferential groove am and lock the parts against a return movement until turned back to the Zero position; also, that a partial forward movement of the shaft c not only disconnects the registering mechanism from the actuating mechanism by removing the tooth u12 from the toothed wheel a5, but also locks the entire mechanism against either forward or backward movement by bringing said tooth into engagement with the lined Wheel CLG. It will also be noted that if the resetting mechanism be tampered with at all it will be necessary te set the register back to Zero, and that it cannot be left in an intermediate position Without detection, for the reason that the operative connections having once been broken they can only be reestablished at the zero-point.

The mechanism for registering the hundreds is constructed and operated as follows: On a stud or pintle a5 below the dial-plate A3 is mounted a swinging' plate am, which overlaps the said dial-plate and is held normally toward the right, in the position indicated in Fig. 2, by a spring a, in which position it covers the left-hand or hundreds character of the number opposite the sight-opening uw, so that only the units and tens characters are exposed to view, as shown in Fig. i. On the hub of the swinging plate am, back of the dialplate A3, is an upwardly-extending arm am, which projects into' the path of a stud or projection @L63 on the back of the dial-plate, the arrangement being such that at the proper point in the rotation of the dial-plate the stud ds will strike the arm a6' and turn it and the connected plate uw back toward the left far enough touncover the hundreds character on the dial, the said tooth then passing the arm c62. lVhen the plate a6() is turned back, as explained, to uncover and expose the hundreds character, a pawl am, pivoted at the side of the lever A4, (see Figs. 2, 5, and 6,) drops into engagement with a stop-lug 0,65 on the hub of the plate 0.60 and holds the latter in its retracted position. l/Vhen the lever A4 is thrown forward preparatory to resetting the register,the pavvl a6* is carried out of engagement with the lug @L65 and the plate is returned to normal position by its spring 0,61, the stop-lug L65 passing under the end of the paWl 0.64. When the lever A4 is released after resetting the register, it returns to normal position, as already explained, the pawl resting on the stop-lug @65, (see Fig. 6,) ready to drop into engagement when the plate is again turned back. The register being set to zero, the parts will be in the relative positions shown in Fig. 2, the two ciphers on the units and tens dials being exposed through the sight-opening and the hundreds character covered by the plate @60. The dial-plate A3 will remain stationary in the zero position until nine fares have been registered on the dial A2. The registration of the tenth fare will complete the first rotation of the unitsdial and bring the cipher thereon back into View. At the same time the wheela"16 will complete a full rotation, and by the engagement of its tooth um with the notch a5@ in the scalloped wheel L48 will turn the latter and the connected dial -plate A3 forward one step, bringing the first digit in the tens row into view simultaneously with the cipher in the units row. The register now registers 10, and it will continue to register units and tens until the dial-plate A3 completes a full rotation, at which time the plate a6@ is turned back to uncover the hundreds row and remains in this retracted position until the register is set back to Zero, when it is released and returned to normal position, as above explained.

The capacity of this trip-register is one hundred and ninety-nine fares, this being sufficient on most roads under ordinary circumstances. ln extraordinary cases, when greater capacity is required, the difficulty may be met by setting back to Zero when the registering capacity is exhausted and making a new or additional registration for the balance of the trip. lnasmuch as the setting back would have to be done in the presence of all the passengers on the car, there would be slight danger of a failure on the part of the conductor to make t'ull returns in such cases, and even should he fail to do so the total or permanent register hereinafter described would report the fact and inevitably lead to detection.

The total or permanent register of the cashsection-that is, the register which registers the whole number of fares taken and registered in successive trips-will now 4be den scribed.

On the lower part of the base-plate are two forwardly-projecting lugs or ears 099 099, which support a transverse pin or arbor 097, on which are rotatably mounted a series of registering-wheels 08 099 079 091, each bearing on its peripherical surface the nine digits or numerals and a cipher, equally spaced and running in numerical order and in the same direction on all the wheels. (See Fig. 2.) The drawings show four of these register-wheels; but it is evident that a greater or less number may be used, according to the registering capacity desired. The capacity of the four wheels illustrated is nine thousand nine huudred and ninety-nine fares. By adding a fifth wheel it would be increased tenfold, while by taking off the fourth wheel it would be correspondingly reduced. The first or units wheel 099 of the series has connected with it a bevel-gear 099, which meshes with and is driven by a corresponding gear 099, mounted on a stud or pintle 094, projecting forward from the base-plate 0. Back ot' the bevel-gear 073 and connected therewith is a pinion (not shown) which is driven from the gear-wheel 04 through an intermediate gearwheel 095, mounted on an arbor projecting from the plate 0. These several gears and pinions are so proportioned relatively to each other that each forward movement or impulse of the wheel 04 will turn the register-wheel 09S through one-tenth of a rotation to bring the numerals thereon successively into view through a sight-opening 099 in the face-plate 097. (See Fig. l.)

In the left-hand side or edge of the rim of each of the register-wheels 099 099 079 is formed a notch,such as shown at 0T8 in Fig. 2, and at each side of said notch a tooth 079, which teeth project beyond the edge of the rim toward the adjacent wheel, as shown, and on the righthand side or edge of the rim of each of the wheels 099 099 071 are twenty crown-teeth 099. Mounted, also, in the lugs or ears 099 099, outside of or beyond the register-wheels 098 099 070 0, is a transverse rod or arbor 091, which sustains three independently-rotatable cogwheels 092 0S9 099, located opposite the respective'spaces between the register-wheels. Each of these cog-wheels has teeth of different width, every alternate tooth being adapted to pass the plain portion of the register-wheel at the right and to engage the teeth of that at the left, while the remaining teeth are of such width that while they are adapted to enter between and engage the teeth of the register-wheel at the left they are too wide to pass the plain portion of that at the right and can only engage the notched portionof the latter. The narrow teeth are, however, of

such width that they stand in the path of the teeth 099 of the register-wheel at the right, and therefore on the completion of a full rotation of any register-wheel the cog-wheel immediately at the left thereof will be turned forward one step.

The operation of this registering mechanism is as follows: Beginning at the right with the units and tens register-wheels 098 099 and the cog wheel 099, a narrow tooth of the latter is normally in engagement with the teeth of the tens-wheel 099, while the next succeeding tooth ofthe cog-wheel, which is one of the wide teeth, stands in front of the units-wheel 0,99 and overlaps the plain or unnotched portion of the rim thereof. On the completion of al full rotation of the units-wheel 098 the advance tooth 099 thereon will engage that tooth of the cog- Wheel which is in engagement with the tens register-wheel 099 and turn the cog-wheel forward, the wide tooth entering the notch 079 in the units-wheel and engaging also the teeth of the tens-wh eel 099, whereby the latter is also turned forward. Before the wide tooth of the cog-Wheel leaves the notch 079 in the units-wheel 099 and the teeth of the tens-wheel 099 the next narrow tooth of the cog-wheel will have engaged the teeth of the tens-wheel and the forward movement of the latter will continue until the wide preceding tooth is carried out of engagement with both of said register-wheels, when the tens-wheel comes to rest and remains stationary until the unitswheel completes another rotation,when the operation described will be repeated.

It will thus be seen that on the completion of each full rotation of the units-wheel thev tens-Wheel Will be turned forward through an angular distance corresponding with two of its teeth, or one-tenth of a rotation, every tenth unit being thus carried over and registered on the tens register wheel. ln like manner a full rotation of the tens registerwheel 099 will, through the cog-wheel 099, effect one-tenth of a rotation of the hundreds-wheel 099, and a full rotation of the latter will, through the cog-wheel 099, eect one-tenth of a rotation of the thousands-wheel 091, the operations being precisely the same throughout the series as described ,with reference to the units and tens wheels, a full rotation of any register wheel of the series producing onetenth ota rotation of the next wheelof higher order.

. lt will be further observed that by reason of the teeth of the register-wheels 099 099 071 being constantly in engagement with the teeth of the respective cog-wheels 0S2 0S9 099, and by reason of the wide teeth of the cogwheels being unable to pass the unnotcheol portions of the rims of the wheels 099 099 099, and by reason of the units-wheel 099 being constantly1 in engagement with the actuatinggear, it isimpossible to "tamper with the register or to set either of the register-wheels either forward or backward surreptitiously, the whole train being positively geared together and incapable of being disconnected.

This total or permanent vregistering mechanism just described turns constantly forward in the saine direction and is not intended to be reset. No provision is therefore made for disconnecting it from the driving-gear except by taking the whole register apart. lts ca- IOO pacity having been exhausted by Aregistering up to nine thousand nine hundred and ninetynine, the next operation brings the whole series of register-wheels back to zero, which thus indicates 1O,OO0,7 afterwhich a new registration begins.

My direction-indicator, which shows the direction in which the car is traveling, comprises a four-sid ed block 0.85, journaled in lugs or ears @3G (LSG, projecting forward from the base-plate d at or near the top thereof. On one of the journals of this indicator is a fourtoothed wheel d8?, which is actuated by a swinging or vibrating lever CLSB, pivoted at @89 and connected by means of a laterally-projecting pin i90 with an arm am of the leverA4, (see Figs. 2, 5, and 6,) whereby when the lever A4 is operated in the act of resetting the tripregister, as above explained, the lever Q88 is vibrated. The lever ass has two arms (192 @93 of unequal length adapted to engage opposite teeth of the wheel. The arm @93, which is the longer arm of the two, is bent at its outer end, as shown in Fig. 6, and the two arms stand normally on opposite sides of the respective teeth of wheel Q87 with which they engage. Vhen the lever A4 is pushed forward pre paratory to resetting the trip-register the 1everctgsis swung backward or downward, as viewed in Fig. 6, whereby the arm a9?, acting on a tooth of the wheel (L87, turns the latter and the indicator as forward far enough to bring the next preceding tooth of the wheel @87 into the path of the arm @95, so that on the return movement of the levers A4 @83, after resetting the register, an additional movement of the indicator will be effected and a quarter rotation thereof completed to bring the next side or face full toward the sight-opening L94 in the face-plate a". The next operation of the resetting-lever A4 of course repeats these operations, the indicator being thereby turned Vforward another quarter-rotation to bring the next face thereof into View, and so on. As illustrated in the drawings, this indicator Vis adapted to a line or road on which the car runs back and forth and wherethelegends Up and Down appropriately indicate the direction in which the car travels.

It will be understood from the foregoing description that the two legends whereby direction is indicated are carried on adjacent faces of the block @85, and that opposite faces carry the same indication. Manifestly, however, where the apparatus is to be used on a belt line or other circuitous route the indications or legends on the four sides of the block may be changed to meet the requirements-as, for example, East, Vest, North, and

Southf following each other in appropriate order.

The mechanism thus described is inclosed in asuitable casing, made preferably of sheet metal in circular form, larger at the front than at the rear, with a square shoulder or offset Q immediately in rear of the base-plate a,

through which offset the push-pin L54 projects to the exterior, as shown in Fig. 6, for convenient manipulation in resetting the register. The case may be made in separate parts or sections secured together and to the base and rear plates in anyappropriate manner or by any suitable or preferred means, these features constituting no part of the invention claimed herein. The front plate of this casing, which overlies the face-plate a", is provided opposite the sight-openings in the latter with glazed apertures or windows @96 am a, (see Figs. l and 6,) through which the registrations and the direction indications maybe seen. Manifestly the face-plate 0.7"" might be dispensed with without in any way impairing the utility of the apparatus.

Referring now to the transfer-section B, which, as before stated, is intended to register' only transfers, the mechanism thereof is constructed and operates as follows:

B designates a base-plate secured in any appropriate manner to the rear plate Ct of the section A, or, if preferred, cast integral therewith. On a short shaft b3, which extends through and has a bearing in the baseplate, is secured a segmental gear U", which meshes with a corresponding segment Z143, loosely mounted on a horizontal shaft Z144, supported in forwardly-extending lugs or ears c c, formed on or attached to the base-plate B', and on the rear end of the shaft Z13, back of the base-plate, is fixed a lever or crank arm h2, to the outer or swinging end of which is attached a cord or rope Z1', which constitutes the means for operating the registering mechanism, and which therefore leads to a point on the car where it may be conveniently grasped by the conductor orfare-collector, as usual in registers of this class. The parts thus mounted and connected are held in normal position by a spring Z910, acting against an arm ZJ? of the segment ZJG, as shown in Fig. 5.

B3 B4 designate two register-wheels rotatably mounted in juxtaposition on the shaft Z944. These wheels constitute the trip-register-that is, the register which registers the transfers taken in any trip. They each carry on their peripherical surfaces the nine digits or numerals and a cipher, evenly spaced and running in numerical order in the same direction on both wheels. The right-hand or units wheel B3 has connected with it a sleeve which extends loosely through the tens-wheel B4 and is provided at the left of the latter with a ratchet-wheel Z248, which is actuated by a pawl 647, carried by an arm Z245 of the segment Z943, whereby a step-by-step rotary movement is imparted. The ratchet-wheel Z218 has ten teeth, and the throw of the pawlcarry ing arm Z915 is such that the ratchet-wheel and the register-wheel connected therewith are turned through one-tenth of a rotation at each impulse, whereby the numerals on the register-wheel are brought successively into view" through a sight-opening s in the front or face plate of the inclosing-case.

J which is engaged by a pawl at the side of the wheel or collar 520, whereby the registerwheel B3 is made fast on the shaft 514 when the latter is turned in a forward direction. The arrangement is such that the registerwheel may, however, turn forward independently of the shaft.

Supported in suitable bearings above the register-wheels B3 B4 is a shaft 524, which has rigidly mounted on it a scalloped wheel 522 and a gear-wheel 525. (See Figs. 2, 9, and l0.) The scalloped wheel 522 is the counterpart of the wheel @4S of the cash-section A, and the wheel 520 corresponds with the wheel L44 of said cash-section. It will therefore be sufficient to say in this connection that the said wheels 522 520 co-operate to impart astep-bystep movement to the scalloped wheel 522, its shaft 524, and the gear-wheel 525 in precisely the same manner that the wheels L46 0,48 of the cash-section co-operate to effect a similar movement. At the left-hand side of the register-wheel B4 and connected therewith is a gear-wheel 524, with the same number of teeth as the wheel 525, with which it is in gear.

The operation of the mechanism of the transfer-section thus far described is as follows: The segment 5G being operated by a pull on the cord 5', motion is imparted to the register-wheel B3 through the segment 513, and its pawl 511, acting upon the ratchet-wheel 512. Each pull on the cord turns the ratchet-wheel forward one step, corresponding to one-tenth of a rotation, so that its numerals are brought successively into view through the sight-opening. On the completion of a full rotation of the register-wheel BB-that is, in the last step which completes the rotation-the scalloped wheel 522, its shaft 524, and the gear-wheel 525 will be turned forward one step or one-tenth of a rotation, whereby the tens register-wheel B4 will also be turned forward a corresponding distance, and the first numeral thereon brought into view through the sight-opening simultaneously with the cipher on the unitswheel B3, the register then registering ten transfers. In like manner on the completion of each subsequent rotation of the units-wheel the tens-wheel will be turned forward one step, bringing the numerals thereon into view in succession simultaneously with the cipher on the units-wheel until a full rotation of the tens-wheel is completed, when the registering capacity will be exhausted and a new registration will begin. It is calculated that in ordinary use the capacity of this transferregister will seldom, if ever, be exhausted. Should this, however, occur, the registration would simply be continued, there being nothing to prevent a continuous operation until the lever A4 is thrown forward preparatory to setting the trip-register of section A back to Zero, as above explained. When this is done,

the transferregister is locked and rendered inoperative through connections controlled by lever A4, and it is then necessary to reset the transfer-register to zero before it can be furtheroperated. These lockingconnections and the means for resetting the transfer-register to Zero will now he explained.

In the back of the transfer-register, below the register-wheels B3 B4 and parallel with the axis thereof, is a shaft 541, which projects into the cash-section A (sce Fig. 5) and is provided at its end with a forwardly-projecting arm 542, which stands in engagement with an arm t100 of lever A4, whereby it is held normally in elevated position. This shaft 541 also carries a dog 543, rigidly mounted thereon and provided at its free or swinging end with an angular point or tooth CZ, which engages and controls a disk or wheel 547, rigidly fixed on the shart 514, which forms the axis of the register-wheels. The said disk or wheel has in its edge a notch 54S, in which the tooth CZ engages to hold the disk and its shaft against rotation, and it is also provided with any preferred number of teeth, (four being shown in the drawings) which project forward in the direction of rotation. (See Fig. 9.)

At the side of each of the register-wheels B3 B4and connected therewith is a concentricdisk e, provided in its edge with a notch, the front side of which is radial and the rear side rounded into a cam 544. (See Fig. 9.) In front of cach of these disks-that is, in the same plane therewith--is a spring-pressed dog 544, mounted on the shaft 541 and provided with an angular point or tooth d', adapted to enter the notch in the disk. These dogs (of which onlyone is shown in the drawings) are united by a sleeve, through which the shaft 541 extends loosely, so that they partake of the same swinging or vibrating movements. The notches in the two disks e are so arranged relatively to the numerals on the respective register-wheels that when the latter are both in the zero position the said notches will be in the same radial plane and the points or teeth of the two dogs 544 will then rest therein, as shown. Vhen the register is operated, the first forward movement of the units-wheel and its connected disk causes the cam 54G of the latter to throw the dogs outward, and they will then remain in this outward position until the tens register-wheel B4 completes a full rotation, at which time the two register-wheels will return to the Zero position together, the two notches in the two disks e c will be in coincidence or in the same radial plane, and the teeth dof the two dogs 544 will enter the same. The dogs 541 are actuated by one arm of a spring 545, coiled around the shaft 541, the opposite arm of said spring acting in the opposite direction on the dog 543, with a constant tendency to throw the latter out of engagement with the disk 547. The tension of the spring b is, however, so regulated that when the dogs 544 are in their inward position, as shown in Fig. 9, the outward IOO IIO

pressure on the dog Z115 will be overcome by a springf, acting on said dog to throw it into action. Ytlhen the dogs Z14'1 are thrown outward, as above explained, the tension of the spring Z115 is increased beyond that of spring f, and the dog Zr13 will then also be thrown out of engagement with the disk U11 as soon the arm Z1'12 is released by th rowing the lever A1 forward. s-spring-pressed arm Z151, pivoted at f, bears upon the teeth of the ratchetwheel Z11S and forms a friction-stopte prevent overrotation of the latter and the units register wheel connected therewith, as above explained. rlhe shaft Z111 extends ont to the exterior of the inclosing-case and is provided on its projecting end with a knob or button Z149, whereby it is adapted to be turned by hand in the operation of resetting to Zero, which operation will now be explained.

Snpposing the register to have been operated during a trip to an intermediate point in its capacity-say, for instance, till seventy transfers have been registered-as indicated in Fig. l, the point of the dog Z141, acting in connection with the disk e on the tens register-wheel, will rest on the periphery of said disk, and the two dogs Z1A171 will beheld thereby in their outward position. The full tension of the spring Z1'15 will then be applied to the dog Z113 to throw the latter out ofengagement with the disk Z117; but such disengagement will be prevented by the arm Z112of shaft Z111, which, being in engeigement with arm d of lever A1, locks the shaft Z111 against backward rotation and prevents the dog from swinging outward, it being remembered that the dog is fast on the shaft. Now when the lever A1 is pressed forward preparatory to resetting the trip-register of section A, as hereinbefore explained, the arm d100 will be carried out from under the arm Z112, leaving the latter free to drop and the dog Z1L13 to be thrown out of action by the spring Z115, and also leaving the disk Z1A17 and the shaft Z111, on which it is fined, free to berotated. The operator now takes hold of the knob or button bgand turns the shaft forward, whereby, through the action of ine toothed wheel r,fu;ed on the shaft, and the pawl mounted on the wheel or collar Z120, which latter is connected with the units register-wheel, 'the said register-wheel is made fast on the shaft and is caused to turn therewith. The forward rotation of the shaft is continued until the two register-wheels reach the zero position together--that is, till the tens-wheel has completed a full rotation-- when the notches in the two disks e e will be in coincidence or in the same radial plane, and the two dogs Z111 will drop thereinto. lVhen this occurs, the force with which the spring Z acts on the dog Z113 to throw it out or away from the disk Z1L17 will be so much reduced that the dog` will be thrown into action by the spring f, and the parts will then be locked against further rotation. Simultaneously with the return of the dog Z113 into engagement with the disk Z117 the arm Z112 will return toits position above the arm d100 of lever Al and permit the latter to move back to its normal position underthe influence of the springs d11, as already explained, whereby connection between the actuating mechanism and the tripregistering mechanism of section A is re-established. Both sections'of the register are now in operative condition ready for the next trip.

The end of arm Z1V12 has a bent or inclined portion within the range of movement of the arm d100 of lever A4, which necessitates the resetting of the register-wheels B331 to Zero before the lever A1 is released after being thrown forward to break connection, as otherwise the arm d100 will come in contact with said bent or inclined portieri of arm Z112, whereby not only the return of lever A1 to normal position 1 is prevented, but the arm Z112 is raised and the dog Z1L13 thrown against the disk Z117, the teeth on the latter then preventing the rotation of shaft Z'111 to reset the register, as above explained.

It has hereinbefore been stated that the registering mechanism of the cash-section A is adapted to be operated independently of the transfer-section B-that is, without operating the latter-but that the two sections are so connected that when the transfer-section is operated to register a transfer the cash-section is also operated in conjunction therewith, the result or effect of which is that the transfers are registered by both sections, while the cash fares and regular tickets are registered by the cash-section only. The connections between the two sections whereby this is effected are as follows: On the hub of segment Z11 is a radial arm Z18, which stands behind an arm Z19 on the sliding bar C028, and when the transfer-register is operated actuates said bar and operates, also, the registering mechanism of section A, connected therewith; but when section A is operated by turning the shaft d10 there is no (3o-operation between the two arms Z1S Z151, and the transfer-section is therefore not operated.

lfVith the view of compelling an effectual operation of the transfer-register, I provide means which require the actuating parts thereof to be moved to the full limitof movement at each operation, and which, in case they are not properly operated, engages and holds them in inoperative condition.

The means referred to are as follows: The hub of segment Z16 is provided with a radial arm Z11, the end of which is notched, as at Z111, Fig. 5, and on the base-plate B', at a point between the limits of movement of said arm, is pivotally mounted a detent Z112, which is yieldingly held in position by a spring 711, which permits it to turn in either direction. The point or tooth t' of this detent projects into the path of movement of the end of the arm Z17, so that it is engaged and turned aside by the latter both in the forward and backward movements. lf the segment be turned to the full limit of its movement, so as to effectually operate tte registering mechanism, the arm 57 will entirely pass the detent and will then be free to return to normal position, turning the detent aside in the return movement; but if it be operated to a less extent the detent will engage in the notch bu and prevent a return of the parts to normal position, thus rendering the register inoperative until the full movement of the segment is completed.

The transfer-section Bis also provided with a total or permanent registering mechanism for registering the aggregate number of transfers registered by the tri p-register in successive trips. This total register is connected with and operated by the actuating devices of the trip-registering mechanism as follows: On the shaft Z714, at the side of the ratchetwheel Z318, is loosely mounted a ratchet-wheel Z928, which is the exact counterpart of the wheel b18 and is actuated simultaneously therewith by the same pawl bw, so that the same angular movement (one-tenth of a rotation) is imparted to both of said ratchet-wheels at each stroke of the pawl.

Connected with the ratchet-wheel bis is a gear-wheel 1119, which meshes with a similar wheel n, mounted on a stud or pintle 1932, projecting from the lug or ear c, (see Fig. 2,) and this wheel n meshes in turn with a gear-wheel o j, fixed on a shaft 7333, journaled in the two ears 7c 7c. The intermediate gear-wheel n may be of any preferred size; but the two wheels bw j must be of the same size-that is, they must have the same number of teeth-so that they shall be rotated through corresponding angular distances at each operation of the register.

On the shaft Z933 are four register-wheels i234 Z235 b36 537, which correspond in every respect with the wheels d68 '0,69 d70 ci of the total register of section A. In this case, however, the units-wheel Z934 is fast on the shaft Z933, so that motion is transmitted thereto through the train of gears Z719 'a j, above described, and the shaft on which it is mounted. The tens, hundreds, and thousands wheels 535 656 U37 are loose on the shaft and are actuated from the units-wheel 534 through a series of cog-wheels i942, mounted on an arbor m. W'it-h the exception of the means and connections for transmitting motion to the units-wheel Z934 the construction, arrangement, and operation of this registering mechanism are precisely the same as in the case of the total or permanent register of section A, which having been fully described in detail, it is not necessary to repeat the description here. It is sufficient to say that the two mechanisms are substantial duplicates or counterparts of each other and thata description of one will answer for both.

In rear of the actuating-pawl b is a stoppawl bio, mounted on the shaft 1924. This pawl engages both of the ratchet-wheels Z918 52S and prevents backward rotation. Without this the drag of the pawl b on the teeth of ratchet-wheel Z228, through which the total or permanent registering mechanism is actuated,

would be liable to disarrange the latter and create discrepancies between the trip and permanent registers; but by applying means for preventing backward rotation such liability is avoided.

The mechanism of the transfer register or section is inclosed by a rectangular case, made preferably of sheet metal and adapted to be set thereover from the front and secured to the base-plate, being slotted at the outer end for the reception of the shaft 514 and in the lower side for the reception of the arm b9 of the sliding bar CLES. In the face-plate o are two glazed openings or windows s t, through which the registrations of the trip and permanent registers may be observed.

The foregoing description applies to the preferred form, construction, and arrangement of my register. Many modifications will suggest themselves to the skilled mechanic, and I therefore desire to have it understood that I do not limit myself to the exact details of construction set forth in this specification, and that the claims hereto appended are intended to include and cover obvious mechanical equivalents so long as the principle of operation remains the same.

Having now described my invention, I claim l. In a fare register the combination of two registering mechanisms each comprising a permanent register and a re-setable trip-register, for registering twp classes of fares, an operating mechanism for each of said registering mechanisms, and a separable connection between said operating mechanisms arranged and adapted to cause the two registering mechanisms to be operated synchronously from, or through, one of said operating mechanisms and to permit one registering mechanism to be operated independently from, or through, its own operating mechanism.

2. In a fare register the combination of two registering mechanisms each comprising a permanent register and a re-setable trip-register, for registering two classes of fares, an angular lever and connections for operating one of said mechanisms, a sliding bar and connections for operating the other of said mechanisms, the said bar having an arm or projection which stands in the path of said lever, whereby, when the lever is operated both registering mechanisms are actuated, and whereby the registering mechanism with which the sliding bar is connected is adapted to be operated independently.

3. In a fare register the combination with the registering devices, and with the mechanism for actuating the same, of the rotatable and longitudinally movable shaft geared with the registering devices and having a radial arm normally in engagement with the actuating mechanism and adapted to be disconnected therefrom by the longitudinal movement of its shaft, a circular flange on the frame of the register, and a spring latch on said radial arm adapted, when the arm is dis- IOC) IIO

connected from the actuating mechanism, to engage said tiange and prevent a return to operative position, said iange having a notch located, and adapted, to permit the said latch to pass therethrough and the arm to return to normal or operative position when the register is set' to zero.

4. The combination of two rotary dial plates, one having' thereon a series of units characters and the other a series of tens and a series of hundreds characters, a movable plate arranged and adapted to cover and uncover the hundreds characters, means for holding said plate in position to cover the hundreds characters, and means for moving it to uncover and expose said characters at the beginning of a hundreds registration.

5. In a fare register the combination of two rotary dial plates mounted side by side and adapted to be rotated step-by-step, the right hand dial having a single row of numerals representing units and the left hand dial having a double row of numerals representing tens and hundreds, means for rotating the units dial step by step, means for rotating the tens and hundreds dial one step on the completion of a full rotation ofthe units dial, a movable plate which normally covers the hundreds numerals, and means for moving said plate to uncover and expose the hundreds numerals at the beginning of a hun` dreds registration.

6. In a register' theucombination of a rotary dial plate having thereon two series of numerals arranged in circular and concentric rows, one row within the other, and a movable plate adapted to be set in different positions to cover or expose the numerals of one series, as and for the purpose described.

7. In a register the combination ofa rotary dial plate having thereon two series of nunection in said operating mechanism for renp dering the latterinoperative, means for breaking said connection, a second registering mechanism for registering a different class of fares, an operating mechanism connected therewith, and devices operated by said second registering mechanism to prevent said broken connection from being restored to operative condition until said second registering mechanism has been re-set to zero.

9. In a fare register the combination of a registering mechanism, an operating mechanism connected therewith, a separable voonnection in said operating mechanism, means for breaking said connection, means'tor main- A taining said broken connection until the registering mechanism has been re-set to zero,a second registering mechanism and devices for actuating the same, and a device actuated by said second registering mechanism and operating to prevent said broken connection from being restored until the second registermg mechanism has been re-set to Zero.

JOHN BRADBURY BEYTQNn Witnesses:

DIoKINsoN W. RICHARDS, CURTIS R. HATHAWAY. 

